Hydrocarbons|Classification Of Organic Compounds|Conformations Of Ethane|Markonikoff's Rule|Qzonolysis|Acidic Character Of Alkyne|Substitution Reactions

Classification Of Organic Compounds|IUPAC Nomenclature Of Organic Compounds|Naming Of Saturated Hydrocarbons|Summary

Types OF Reaction In Organic Compounds(Substitution And Addition Reaction)

Three-Dimensional Representation Of Organic Molecules|Classification Of Organic Compounds|Functional Group|Homologous Series|Nomenclature Of Organic Compounds|The IUPAC System Of Nomenclature|IUPAC Nomenclature Of Alkane|Branched Chain Hydrocarbons|Summary

Aromatic Hydrocarbon|Resonance And Stability Of Benzene|Preparation Of Benzene|Chemical Reactions|Electrophilic Substitution Reactions|Directive Influence Of A Functional Gourp In Monosubstituted Benzene|Meta Directing Group|Aromaticity|Geometrical Isomerism|Dipole Moment|Questions|Conformations|Newman Projections|Relative Stability Of Conformations|Summary

Oxidation OF Organic Compounds : 1) oxidation OF Alkenes/Alkynes-a) O2 ozonolysis,b) hydroxylation(syn and anti),c) Drastic oxidation(hot acidic K2Cr2O7 or Hot acidic KMnO4)

Alkenes and alkynes are unsaturated hydrocarbons and undergo electrophilic addition reactions. In alkenes, the addition occurs in one step while in alkynes the addition occurs in two steps. Alkenes show geometrical isomerism but alkynes do not. Alkynes are more acidic than alkenes which are more acidic than alkanes. Both alkenes and alkynes can be prepared by the electrolysis of sodium or potassium salts of carboxylic acids. Write the major product of the reaction : (CH_(3))_(3)C-CH=CH_(2)overset(HBr)to

Alkenes and alkynes are unsaturated hydrocarbons and undergo electrophilic addition reactions. In alkenes, the addition occurs in one step while in alkynes the addition occurs in two steps. Alkenes show geometrical isomerism but alkynes do not. Alkynes are more acidic than alkenes which are more acidic than alkanes. Both alkenes and alkynes can be prepared by the electrolysis of sodium or potassium salts of carboxylic acids. Write the major product of the following reaction : CH_(3)C=CH+H_(2)O overset(Hg^(24))underset("dil.H"_(2)SO_(4))to